DE1684293A1 - Securing structure for load-bearing reinforced concrete and prestressed concrete structures - Google Patents

Description

Securing structure for load-bearing reinforced and prestressed concrete structures The invention relates to a safety structure for load-bearing reinforced concrete and Prestressed concrete structures used to restore, maintain or increase the Load-bearing capacity is attached to the components to be secured. It is known that Renovation and safety measures on reinforced and prestressed concrete structures hitherto be carried out in a very complex and unsatisfactory manner. Appropriate Refurbishment measures are, for example, the subsequent undertaking by means of beams, the reinforcement of components by means of beams, the reinforcement of components by means of additional reinforcements and their protection through gate locking, opening, reinforcing and then pressing out cavities in hollow-core slabs, setting in concrete of in-situ concrete beams in the pointed joints of ceiling tiles, the application of concrete, the complete or partial removal of components and their replacement through new designs.

The well-known renovation measures are the high workload as a result of pointed or demolition work, larger bracing and ancillary work particularly disadvantageous on neighboring construction parts as a result of the demolition work. Further Disadvantages of such renovation work are often the inadequate adhesion of the Newly poured concrete on the existing concrete, which is often the case with small working widths only insufficient compaction of the concrete and therefore often not achievable full Quality.

It is also known that in some cases for those at risk of corrosion or damaged components protective coatings for both the load-bearing reinforcement and have been tested for the outer boundary surfaces of the components. These paintings however, show z. Z. not yet sufficiently high durability, which is the continuous repetition of the measure, as far as possible, and thus significant Costs leads. Another disadvantage of protective coatings can be seen in the fact that that at best they are used to preserve a condition that has already occurred can serve. If there is already a loss of load-bearing capacity, an acquisition is required the original load-bearing capacity is not possible.

The purpose of the invention is to carry out the remedial measures that have been customary up to now on reinforced concrete and prestressed concrete structures to a large extent and to simplify the previous one to reduce high costs and time expenditure.

The invention is based on the object of a safety structure to e @: tw4 # ckel while maintaining the existing defective or reinforcing Components permitted, partially or completely combined with these components restore the full load-bearing capacity of the overall structure or the load-bearing capacity to increase to the required value. According to the invention, the The problem is solved by the fact that the Stalil concrete or prestressed concrete structures, such as B. ceiling, wall and roof panels and beam-like skin parts or others Construction elements, whose load-bearing capacity can be restored., To maintain or to increase is, on the traction side, tensile reinforcement elements retrospectively for the route or are attached shear-proof over the entire length of the pulling side. Tensile reinforcement elements according to the invention are prefabricated, prestressed reinforced concrete elements such as prestressed concrete bars, Prestressed concrete boards and similar components, also metal strips, metal profiles, Plastic profiles or similar tensile components. The shear-proof connection the reinforcement elements with the existing components is made by synthetic resin adhesive various modifications, dowels, staves or mortar.

The one for the respective component. required fire resistance limit through suspended ceilings, through suitable filling elements, through appropriate training the shear-resistant reinforcement elements and the use of special plasters . i ".. for the cladding of the reinforcement elements can be achieved in any case.

The advantage of the fxfind lies in the fact that = the to be rehabilitated or to reinforcing structural elements do not have to be removed so that the necessary auxiliary workers, like $. H .. Pointing work, bracing, etc., should be kept to a minimum or completely omitted and that by the interaction of the reinforcing elements with the existing skin parts the desired load-bearing capacity with the least possible, * effort is achieved in the most economical way. Through the reinforcement measures will be the for conventional renovation measures are very expensive reduced and material and labor saved.

The invention is to be described in more detail below using an exemplary embodiment explained.

Slack or prestressed reinforced concrete ceiling slabs that run through corrosive or other influences are reduced in their load-bearing capacity or for an increase in the usage load beyond the extent provided in the draft It is also intended to obtain reinforcement on the tension side using prestressed concrete rods. The dimensioning of the prestressed concrete rods as well as the determination of their number in each running Neter ceiling width are made according to the static requirements. The connection of the prestressed concrete rods with the ceiling panels is done by gluing by means of leaned plastic glue. The so interconnected components form a composite structure with a rigid composite.

Claims (5)

Claims; 1. Securing structure for load-bearing reinforced concrete and Prestressed concrete structures, characterized in that tensile structural elements on the Total length or at certain points shear-proof on the pulling side of the relevant Components are attached. 2. Security structure according to claim 1, characterized in that that the shear-resistant connection between tensile structural elements and component through Fasteners such as bolts, dowels, screws, belts or synthetic resin adhesives of various types Modifications are made. 3. Securing structure according to claim 1, characterized in that that as tensile structural elements prefabricated structural elements such as prestressed concrete rods, tensioning boards and the like, components with pre-stressed reinforcement made of metal, glass fibers or synthetic Fibers, metal elements, high-strength plastic elements with or without reinforcement, etc. Ä. Apply. 4. Securing structure according to claim 1, characterized in that that as tensile components applied directly to the component to be reinforced Constructions, such as high-strength synthetic resin coatings with or without metal reinforcement, Glass fibers or the like, layers or ribs made of plastic concrete of high strength, with or without suitable reinforcement or the like. 5. Fuse construction according to Claim 4, characterized in that the shear-resistant connection through the at the place of use directly applied reinforcement structure itself takes place.